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Short version:

I have just read about extended slicing and have learned that one can pass a tuple of slices to __getitem__:

a[::3, 1::3]

Nevertheless, you cannot pass slices to arbitrary functions (Please correct me if I am wrong), hence this will fail:

f(::3, 1::3)

The somehow cumbersome workaround is calling slice:

f(slice(None, None, 3), slice(1, None, 3))

1. Are there slice literals (comprehensions) like [] for lists, {} for dictionaries and sets or () for generators and tuples? (Maybe <start, end, step> or whatever)

2. Is it possible to pass slices to arbitrary functions in the neat slice notation?


Long version (TL;DR):

If I want to coalesce over different slices of a list, i.e. find the first element of these slices which does not evaluate to False, it would be nice if I could pass the well-known and really concise slice notation to this function. Now a solution could be the following, but I am not sure if this is ill-advised:

#! /usr/bin/python3.3

class Array(list):
    class Coalescer:
        def __init__(self, array):
            self.array = array

        def __getitem__(self, slices):
            if not isinstance(slices, tuple):
                slices = (slices,)
            for s in slices:
                for e in self.array[s]:
                    if e: return e
            return None

    @property
    def coalesce(self):
        return Array.Coalescer(self)

a = Array ([0, 0, 2, 0, 3, 4, 0, 5, 6])

print(a.coalesce[:]) #2
print(a.coalesce[::3]) #None
print(a.coalesce[1::3]) #3
print(a.coalesce[::3, 1::3]) #3
a [6] = 42
print(a.coalesce[::3, 1::3]) #42

IMHO, this is more readable than a.coalesce(slice(None, None, 3), slice(1, None, 3)) or even coalesce(a, slice(None, None, 3), slice(1, None, 3)).

3. Is this a viable option or a bad example of how not to use __getitem__?

4. Is there a PEP or other document which gives guidelines when and how to overwrite __getitem__, and more importantly when not and how not?

5. Which would be, in your estimated opinion, the most appropriate way to implement a function that coalesces over an ordered list of slices?

Thank you very much.

share|improve this question
    
Maybe you could just use NumPy? Or, if you insist on rolling your own, borrow the idea of view objects. –  Janne Karila Aug 19 '13 at 6:42
    
@JanneKarila Thank you Janne. Are there literals for slices or is it possible to pass slices (in the well-known slice notation) to arbitrary functions using NumPy? Perhaps you could post an answer explaining how NumPy addresses these two topics. –  Hyperboreus Aug 19 '13 at 6:48
    
You could write a coalesce function that is used like coalesce(a[::3]) –  Janne Karila Aug 19 '13 at 6:52
1  
No, python doesn't have slice literals outside the [] used to index an identifier. You can write a class that implements __getitem__ and returns the slice, something like: class Index:def __getitem__(self, index):return index and then use it as index = Index(); some_function(index[::3], index[1::3]) instead of the slice(None, None, 3) –  Bakuriu Aug 19 '13 at 9:24
    
@Bakuriu Thank you. A pity that there aren't literals. –  Hyperboreus Aug 19 '13 at 16:58

1 Answer 1

up vote 2 down vote accepted

First I would suggest using NumPy or pandas and creating a function that would just receive, as @JanneKarila suggested coalesce(a[::3])

But if you have to create an object that can be sliced and that has functions that should also implement slices I would follow the approach the Pandas library did.

  1. You have a DataFrame (don't bother with names) object df and you can do slicing on it using df[1:3]

  2. But if you want some special slicing then they implemented another object, that has a reference to the first one which also implements slicing and is available as an attribute of the first object df.ix[3:5].

Your implementation would look something like this:

class SpecialSlicer(object):
    def __init__(self, obj):
        self.obj = obj

    def __getitem__(self, ...):
       return sefl.obj[...]

class Array(object):
    def __init__(self):
       # do your stuff
       self.ss = SpecialSlicer(self)

    def __gettitem__(self, ...):
        return ....

So now you can do:

 a = Array()
 a[3:4]
 a.ss[4:5]

But again, in this case, if I understood the problem correctly, I would go for a function that just receives an already sliced object.

share|improve this answer
    
Thank you. If I am not mistaken, your code snippet does exactly the same thing as my code in the TL;DR part of my question. If Pandas does this, I guess that doing so is a viable option and not a bad way of using getitem. –  Hyperboreus Aug 19 '13 at 16:58
    
Yes it's a viable option. The only difference between your and my code is that you create the indexer object whenever the property is accessed which is in this case, I think, unnecessary. –  Viktor Kerkez Aug 19 '13 at 18:10

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